#!/bin/bash # Copyright (C) 2017 Luis R. Rodriguez <mcgrof@kernel.org> # # This program is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the Free # Software Foundation; either version 2 of the License, or at your option any # later version; or, when distributed separately from the Linux kernel or # when incorporated into other software packages, subject to the following # license: # # This program is free software; you can redistribute it and/or modify it # under the terms of copyleft-next (version 0.3.1 or later) as published # at http://copyleft-next.org/. # This performs a series tests against the proc sysctl interface. # Kselftest framework requirement - SKIP code is 4. ksft_skip=4 TEST_NAME="sysctl" TEST_DRIVER="test_${TEST_NAME}" TEST_DIR=$(dirname $0) TEST_FILE=$(mktemp) # This represents # # TEST_ID:TEST_COUNT:ENABLED # # TEST_ID: is the test id number # TEST_COUNT: number of times we should run the test # ENABLED: 1 if enabled, 0 otherwise # # Once these are enabled please leave them as-is. Write your own test, # we have tons of space. ALL_TESTS="0001:1:1" ALL_TESTS="$ALL_TESTS 0002:1:1" ALL_TESTS="$ALL_TESTS 0003:1:1" ALL_TESTS="$ALL_TESTS 0004:1:1" ALL_TESTS="$ALL_TESTS 0005:3:1" test_modprobe() { if [ ! -d $DIR ]; then echo "$0: $DIR not present" >&2 echo "You must have the following enabled in your kernel:" >&2 cat $TEST_DIR/config >&2 exit $ksft_skip fi } function allow_user_defaults() { if [ -z $DIR ]; then DIR="/sys/module/test_sysctl/" fi if [ -z $DEFAULT_NUM_TESTS ]; then DEFAULT_NUM_TESTS=50 fi if [ -z $SYSCTL ]; then SYSCTL="/proc/sys/debug/test_sysctl" fi if [ -z $PROD_SYSCTL ]; then PROD_SYSCTL="/proc/sys" fi if [ -z $WRITES_STRICT ]; then WRITES_STRICT="${PROD_SYSCTL}/kernel/sysctl_writes_strict" fi } function check_production_sysctl_writes_strict() { echo -n "Checking production write strict setting ... " if [ ! -e ${WRITES_STRICT} ]; then echo "FAIL, but skip in case of old kernel" >&2 else old_strict=$(cat ${WRITES_STRICT}) if [ "$old_strict" = "1" ]; then echo "ok" else echo "FAIL, strict value is 0 but force to 1 to continue" >&2 echo "1" > ${WRITES_STRICT} fi fi if [ -z $PAGE_SIZE ]; then PAGE_SIZE=$(getconf PAGESIZE) fi if [ -z $MAX_DIGITS ]; then MAX_DIGITS=$(($PAGE_SIZE/8)) fi if [ -z $INT_MAX ]; then INT_MAX=$(getconf INT_MAX) fi if [ -z $UINT_MAX ]; then UINT_MAX=$(getconf UINT_MAX) fi } test_reqs() { uid=$(id -u) if [ $uid -ne 0 ]; then echo $msg must be run as root >&2 exit $ksft_skip fi if ! which perl 2> /dev/null > /dev/null; then echo "$0: You need perl installed" exit $ksft_skip fi if ! which getconf 2> /dev/null > /dev/null; then echo "$0: You need getconf installed" exit $ksft_skip fi if ! which diff 2> /dev/null > /dev/null; then echo "$0: You need diff installed" exit $ksft_skip fi } function load_req_mod() { if [ ! -d $DIR ]; then if ! modprobe -q -n $TEST_DRIVER; then echo "$0: module $TEST_DRIVER not found [SKIP]" exit $ksft_skip fi modprobe $TEST_DRIVER if [ $? -ne 0 ]; then exit fi fi } reset_vals() { VAL="" TRIGGER=$(basename ${TARGET}) case "$TRIGGER" in int_0001) VAL="60" ;; int_0002) VAL="1" ;; uint_0001) VAL="314" ;; string_0001) VAL="(none)" ;; *) ;; esac echo -n $VAL > $TARGET } set_orig() { if [ ! -z $TARGET ]; then echo "${ORIG}" > "${TARGET}" fi } set_test() { echo "${TEST_STR}" > "${TARGET}" } verify() { local seen seen=$(cat "$1") if [ "${seen}" != "${TEST_STR}" ]; then return 1 fi return 0 } verify_diff_w() { echo "$TEST_STR" | diff -q -w -u - $1 return $? } test_rc() { if [[ $rc != 0 ]]; then echo "Failed test, return value: $rc" >&2 exit $rc fi } test_finish() { set_orig rm -f "${TEST_FILE}" if [ ! -z ${old_strict} ]; then echo ${old_strict} > ${WRITES_STRICT} fi exit $rc } run_numerictests() { echo "== Testing sysctl behavior against ${TARGET} ==" rc=0 echo -n "Writing test file ... " echo "${TEST_STR}" > "${TEST_FILE}" if ! verify "${TEST_FILE}"; then echo "FAIL" >&2 exit 1 else echo "ok" fi echo -n "Checking sysctl is not set to test value ... " if verify "${TARGET}"; then echo "FAIL" >&2 exit 1 else echo "ok" fi echo -n "Writing sysctl from shell ... " set_test if ! verify "${TARGET}"; then echo "FAIL" >&2 exit 1 else echo "ok" fi echo -n "Resetting sysctl to original value ... " set_orig if verify "${TARGET}"; then echo "FAIL" >&2 exit 1 else echo "ok" fi # Now that we've validated the sanity of "set_test" and "set_orig", # we can use those functions to set starting states before running # specific behavioral tests. echo -n "Writing entire sysctl in single write ... " set_orig dd if="${TEST_FILE}" of="${TARGET}" bs=4096 2>/dev/null if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Writing middle of sysctl after synchronized seek ... " set_test dd if="${TEST_FILE}" of="${TARGET}" bs=1 seek=1 skip=1 2>/dev/null if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Writing beyond end of sysctl ... " set_orig dd if="${TEST_FILE}" of="${TARGET}" bs=20 seek=2 2>/dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Writing sysctl with multiple long writes ... " set_orig (perl -e 'print "A" x 50;'; echo "${TEST_STR}") | \ dd of="${TARGET}" bs=50 2>/dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } # Your test must accept digits 3 and 4 to use this run_limit_digit() { echo -n "Checking ignoring spaces up to PAGE_SIZE works on write ..." reset_vals LIMIT=$((MAX_DIGITS -1)) TEST_STR="3" (perl -e 'print " " x '$LIMIT';'; echo "${TEST_STR}") | \ dd of="${TARGET}" 2>/dev/null if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Checking passing PAGE_SIZE of spaces fails on write ..." reset_vals LIMIT=$((MAX_DIGITS)) TEST_STR="4" (perl -e 'print " " x '$LIMIT';'; echo "${TEST_STR}") | \ dd of="${TARGET}" 2>/dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } # You are using an int run_limit_digit_int() { echo -n "Testing INT_MAX works ..." reset_vals TEST_STR="$INT_MAX" echo -n $TEST_STR > $TARGET if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing INT_MAX + 1 will fail as expected..." reset_vals let TEST_STR=$INT_MAX+1 echo -n $TEST_STR > $TARGET 2> /dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing negative values will work as expected..." reset_vals TEST_STR="-3" echo -n $TEST_STR > $TARGET 2> /dev/null if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } # You used an int array run_limit_digit_int_array() { echo -n "Testing array works as expected ... " TEST_STR="4 3 2 1" echo -n $TEST_STR > $TARGET if ! verify_diff_w "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing skipping trailing array elements works ... " # Do not reset_vals, carry on the values from the last test. # If we only echo in two digits the last two are left intact TEST_STR="100 101" echo -n $TEST_STR > $TARGET # After we echo in, to help diff we need to set on TEST_STR what # we expect the result to be. TEST_STR="100 101 2 1" if ! verify_diff_w "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing PAGE_SIZE limit on array works ... " # Do not reset_vals, carry on the values from the last test. # Even if you use an int array, you are still restricted to # MAX_DIGITS, this is a known limitation. Test limit works. LIMIT=$((MAX_DIGITS -1)) TEST_STR="9" (perl -e 'print " " x '$LIMIT';'; echo "${TEST_STR}") | \ dd of="${TARGET}" 2>/dev/null TEST_STR="9 101 2 1" if ! verify_diff_w "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing exceeding PAGE_SIZE limit fails as expected ... " # Do not reset_vals, carry on the values from the last test. # Now go over limit. LIMIT=$((MAX_DIGITS)) TEST_STR="7" (perl -e 'print " " x '$LIMIT';'; echo "${TEST_STR}") | \ dd of="${TARGET}" 2>/dev/null TEST_STR="7 101 2 1" if verify_diff_w "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } # You are using an unsigned int run_limit_digit_uint() { echo -n "Testing UINT_MAX works ..." reset_vals TEST_STR="$UINT_MAX" echo -n $TEST_STR > $TARGET if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing UINT_MAX + 1 will fail as expected..." reset_vals TEST_STR=$(($UINT_MAX+1)) echo -n $TEST_STR > $TARGET 2> /dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc echo -n "Testing negative values will not work as expected ..." reset_vals TEST_STR="-3" echo -n $TEST_STR > $TARGET 2> /dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } run_stringtests() { echo -n "Writing entire sysctl in short writes ... " set_orig dd if="${TEST_FILE}" of="${TARGET}" bs=1 2>/dev/null if ! verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Writing middle of sysctl after unsynchronized seek ... " set_test dd if="${TEST_FILE}" of="${TARGET}" bs=1 seek=1 2>/dev/null if verify "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Checking sysctl maxlen is at least $MAXLEN ... " set_orig perl -e 'print "A" x ('"${MAXLEN}"'-2), "B";' | \ dd of="${TARGET}" bs="${MAXLEN}" 2>/dev/null if ! grep -q B "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Checking sysctl keeps original string on overflow append ... " set_orig perl -e 'print "A" x ('"${MAXLEN}"'-1), "B";' | \ dd of="${TARGET}" bs=$(( MAXLEN - 1 )) 2>/dev/null if grep -q B "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Checking sysctl stays NULL terminated on write ... " set_orig perl -e 'print "A" x ('"${MAXLEN}"'-1), "B";' | \ dd of="${TARGET}" bs="${MAXLEN}" 2>/dev/null if grep -q B "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi echo -n "Checking sysctl stays NULL terminated on overwrite ... " set_orig perl -e 'print "A" x ('"${MAXLEN}"'-1), "BB";' | \ dd of="${TARGET}" bs=$(( $MAXLEN + 1 )) 2>/dev/null if grep -q B "${TARGET}"; then echo "FAIL" >&2 rc=1 else echo "ok" fi test_rc } sysctl_test_0001() { TARGET="${SYSCTL}/int_0001" reset_vals ORIG=$(cat "${TARGET}") TEST_STR=$(( $ORIG + 1 )) run_numerictests run_limit_digit } sysctl_test_0002() { TARGET="${SYSCTL}/string_0001" reset_vals ORIG=$(cat "${TARGET}") TEST_STR="Testing sysctl" # Only string sysctls support seeking/appending. MAXLEN=65 run_numerictests run_stringtests } sysctl_test_0003() { TARGET="${SYSCTL}/int_0002" reset_vals ORIG=$(cat "${TARGET}") TEST_STR=$(( $ORIG + 1 )) run_numerictests run_limit_digit run_limit_digit_int } sysctl_test_0004() { TARGET="${SYSCTL}/uint_0001" reset_vals ORIG=$(cat "${TARGET}") TEST_STR=$(( $ORIG + 1 )) run_numerictests run_limit_digit run_limit_digit_uint } sysctl_test_0005() { TARGET="${SYSCTL}/int_0003" reset_vals ORIG=$(cat "${TARGET}") run_limit_digit_int_array } list_tests() { echo "Test ID list:" echo echo "TEST_ID x NUM_TEST" echo "TEST_ID: Test ID" echo "NUM_TESTS: Number of recommended times to run the test" echo echo "0001 x $(get_test_count 0001) - tests proc_dointvec_minmax()" echo "0002 x $(get_test_count 0002) - tests proc_dostring()" echo "0003 x $(get_test_count 0003) - tests proc_dointvec()" echo "0004 x $(get_test_count 0004) - tests proc_douintvec()" echo "0005 x $(get_test_count 0005) - tests proc_douintvec() array" } test_reqs usage() { NUM_TESTS=$(grep -o ' ' <<<"$ALL_TESTS" | grep -c .) let NUM_TESTS=$NUM_TESTS+1 MAX_TEST=$(printf "%04d\n" $NUM_TESTS) echo "Usage: $0 [ -t <4-number-digit> ] | [ -w <4-number-digit> ] |" echo " [ -s <4-number-digit> ] | [ -c <4-number-digit> <test- count>" echo " [ all ] [ -h | --help ] [ -l ]" echo "" echo "Valid tests: 0001-$MAX_TEST" echo "" echo " all Runs all tests (default)" echo " -t Run test ID the number amount of times is recommended" echo " -w Watch test ID run until it runs into an error" echo " -c Run test ID once" echo " -s Run test ID x test-count number of times" echo " -l List all test ID list" echo " -h|--help Help" echo echo "If an error every occurs execution will immediately terminate." echo "If you are adding a new test try using -w <test-ID> first to" echo "make sure the test passes a series of tests." echo echo Example uses: echo echo "$TEST_NAME.sh -- executes all tests" echo "$TEST_NAME.sh -t 0002 -- Executes test ID 0002 number of times is recomended" echo "$TEST_NAME.sh -w 0002 -- Watch test ID 0002 run until an error occurs" echo "$TEST_NAME.sh -s 0002 -- Run test ID 0002 once" echo "$TEST_NAME.sh -c 0002 3 -- Run test ID 0002 three times" echo list_tests exit 1 } function test_num() { re='^[0-9]+$' if ! [[ $1 =~ $re ]]; then usage fi } function get_test_count() { test_num $1 TEST_DATA=$(echo $ALL_TESTS | awk '{print $'$1'}') LAST_TWO=${TEST_DATA#*:*} echo ${LAST_TWO%:*} } function get_test_enabled() { test_num $1 TEST_DATA=$(echo $ALL_TESTS | awk '{print $'$1'}') echo ${TEST_DATA#*:*:} } function run_all_tests() { for i in $ALL_TESTS ; do TEST_ID=${i%:*:*} ENABLED=$(get_test_enabled $TEST_ID) TEST_COUNT=$(get_test_count $TEST_ID) if [[ $ENABLED -eq "1" ]]; then test_case $TEST_ID $TEST_COUNT fi done } function watch_log() { if [ $# -ne 3 ]; then clear fi date echo "Running test: $2 - run #$1" } function watch_case() { i=0 while [ 1 ]; do if [ $# -eq 1 ]; then test_num $1 watch_log $i ${TEST_NAME}_test_$1 ${TEST_NAME}_test_$1 else watch_log $i all run_all_tests fi let i=$i+1 done } function test_case() { NUM_TESTS=$DEFAULT_NUM_TESTS if [ $# -eq 2 ]; then NUM_TESTS=$2 fi i=0 while [ $i -lt $NUM_TESTS ]; do test_num $1 watch_log $i ${TEST_NAME}_test_$1 noclear RUN_TEST=${TEST_NAME}_test_$1 $RUN_TEST let i=$i+1 done } function parse_args() { if [ $# -eq 0 ]; then run_all_tests else if [[ "$1" = "all" ]]; then run_all_tests elif [[ "$1" = "-w" ]]; then shift watch_case $@ elif [[ "$1" = "-t" ]]; then shift test_num $1 test_case $1 $(get_test_count $1) elif [[ "$1" = "-c" ]]; then shift test_num $1 test_num $2 test_case $1 $2 elif [[ "$1" = "-s" ]]; then shift test_case $1 1 elif [[ "$1" = "-l" ]]; then list_tests elif [[ "$1" = "-h" || "$1" = "--help" ]]; then usage else usage fi fi } test_reqs allow_user_defaults check_production_sysctl_writes_strict test_modprobe load_req_mod trap "test_finish" EXIT parse_args $@ exit 0